// runways.cxx -- a simple class to manage airport runway info // // Written by Curtis Olson, started August 2000. // // Copyright (C) 2000 Curtis L. Olson - curt@flightgear.org // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. // // $Id$ #ifdef HAVE_CONFIG_H # include #endif #include // fabs() #include // sprintf() #include #include #include #include STL_STRING #include STL_FUNCTIONAL #include STL_ALGORITHM #include "runways.hxx" SG_USING_NAMESPACE(std); #ifndef _MSC_VER #define NDEBUG // MSVC needs this #endif // !_MSC_VER #include #include #ifndef _MSC_VER #undef NDEBUG #endif // !_MSC_VER #ifdef SG_HAVE_STD_INCLUDES # include #elif defined( __BORLANDC__ ) || defined (__APPLE__) # include #else # include #endif SG_USING_STD(istream); inline istream& operator >> ( istream& in, FGRunway& a ) { int tmp; return in >> a.rwy_no >> a.lat >> a.lon >> a.heading >> a.length >> a.width >> a.surface_flags >> a.end1_flags >> tmp >> tmp >> a.end2_flags >> tmp >> tmp; } FGRunways::FGRunways( const string& file ) { // open the specified database readonly storage = new c4_Storage( file.c_str(), false ); if ( !storage->Strategy().IsValid() ) { SG_LOG( SG_GENERAL, SG_ALERT, "Cannot open file: " << file ); exit(-1); } vRunway = new c4_View; *vRunway = storage->GetAs("runway[ID:S,Rwy:S,Longitude:F,Latitude:F,Heading:F,Length:F,Width:F,SurfaceFlags:S,End1Flags:S,End2Flags:S]"); next_index = 0; } // search for the specified apt id bool FGRunways::search( const string& aptid, FGRunway* r ) { c4_StringProp pID ("ID"); c4_StringProp pRwy ("Rwy"); c4_FloatProp pLon ("Longitude"); c4_FloatProp pLat ("Latitude"); c4_FloatProp pHdg ("Heading"); c4_FloatProp pLen ("Length"); c4_FloatProp pWid ("Width"); c4_StringProp pSurf ("SurfaceFlags"); c4_StringProp pEnd1 ("End1Flags"); c4_StringProp pEnd2 ("End2Flags"); int index = vRunway->Find(pID[aptid.c_str()]); // cout << "index = " << index << endl; if ( index == -1 ) { return false; } next_index = index + 1; c4_RowRef row = vRunway->GetAt(index); r->id = (const char *) pID(row); r->rwy_no = (const char *) pRwy(row); r->lon = (double) pLon(row); r->lat = (double) pLat(row); r->heading = (double) pHdg(row); r->length = (double) pLen(row); r->width = (double) pWid(row); r->surface_flags = (const char *) pSurf(row); r->end1_flags = (const char *) pEnd1(row); r->end2_flags = (const char *) pEnd2(row); return true; } // search for the specified apt id and runway no bool FGRunways::search( const string& aptid, const string& rwyno, FGRunway* r ) { c4_StringProp pID ("ID"); c4_StringProp pRwy ("Rwy"); c4_FloatProp pLon ("Longitude"); c4_FloatProp pLat ("Latitude"); c4_FloatProp pHdg ("Heading"); c4_FloatProp pLen ("Length"); c4_FloatProp pWid ("Width"); c4_StringProp pSurf ("SurfaceFlags"); c4_StringProp pEnd1 ("End1Flags"); c4_StringProp pEnd2 ("End2Flags"); int index = vRunway->Find(pID[aptid.c_str()]); // cout << "index = " << index << endl; if ( index == -1 ) { return false; } c4_RowRef row = vRunway->GetAt(index); string rowid = (const char *) pID(row); string rowrwyno = (const char *) pRwy(row); while ( rowid == aptid ) { next_index = index + 1; if ( rowrwyno == rwyno ) { r->id = (const char *) pID(row); r->rwy_no = (const char *) pRwy(row); r->lon = (double) pLon(row); r->lat = (double) pLat(row); r->heading = (double) pHdg(row); r->length = (double) pLen(row); r->width = (double) pWid(row); r->surface_flags = (const char *) pSurf(row); r->end1_flags = (const char *) pEnd1(row); r->end2_flags = (const char *) pEnd2(row); return true; } // Check reverse rwy number // eg 01 -> 19 // 03L -> 21R // cout << "Original rowrwyno = " << rowrwyno << '\n'; char buf[4]; int rn = atoi(rowrwyno.substr(0,2).c_str()); rn += 18; while(rn > 36) { rn -= 36; } sprintf(buf, "%02i", rn); if(rowrwyno.size() == 3) { if(rowrwyno.substr(2,1) == "L") { buf[2] = 'R'; buf[3] = '\0'; } else if (rowrwyno.substr(2,1) == "R") { buf[2] = 'L'; buf[3] = '\0'; } else { SG_LOG(SG_GENERAL, SG_ALERT, "Unknown runway code " << rowrwyno << " found in FGRunways.search(...)"); } } rowrwyno = buf; // cout << "New rowrwyno = " << rowrwyno << '\n'; // Search again with the other-end runway number // Remember we have to munge the heading result if this one matches if ( rowrwyno == rwyno ) { r->id = (const char *) pID(row); r->rwy_no = rowrwyno; r->lon = (double) pLon(row); r->lat = (double) pLat(row); r->heading = (double) pHdg(row) + 180.0; r->length = (double) pLen(row); r->width = (double) pWid(row); r->surface_flags = (const char *) pSurf(row); r->end1_flags = (const char *) pEnd2(row); r->end2_flags = (const char *) pEnd1(row); // I've swapped the end flags as well return true; } index++; row = vRunway->GetAt(index); rowid = (const char *) pID(row); rowrwyno = (const char *) pRwy(row); } return false; } FGRunway FGRunways::search( const string& aptid ) { FGRunway a; search( aptid, &a ); return a; } // search for the specified id bool FGRunways::next( FGRunway* r ) { c4_StringProp pID ("ID"); c4_StringProp pRwy ("Rwy"); c4_FloatProp pLon ("Longitude"); c4_FloatProp pLat ("Latitude"); c4_FloatProp pHdg ("Heading"); c4_FloatProp pLen ("Length"); c4_FloatProp pWid ("Width"); c4_StringProp pSurf ("SurfaceFlags"); c4_StringProp pEnd1 ("End1Flags"); c4_StringProp pEnd2 ("End2Flags"); int size = vRunway->GetSize(); // cout << "total records = " << size << endl; int index = next_index; // cout << "index = " << index << endl; if ( index == -1 || index >= size ) { return false; } next_index = index + 1; c4_RowRef row = vRunway->GetAt(index); r->id = (const char *) pID(row); r->rwy_no = (const char *) pRwy(row); r->lon = (double) pLon(row); r->lat = (double) pLat(row); r->heading = (double) pHdg(row); r->length = (double) pLen(row); r->width = (double) pWid(row); r->surface_flags = (const char *) pSurf(row); r->end1_flags = (const char *) pEnd1(row); r->end2_flags = (const char *) pEnd2(row); return true; } // Return the runway closest to a given heading bool FGRunways::search( const string& aptid, const int tgt_hdg, FGRunway* runway ) { string rwyNo = search(aptid, tgt_hdg); return(rwyNo == "NN" ? false : search(aptid, rwyNo, runway)); } // Return the runway number of the runway closest to a given heading string FGRunways::search( const string& aptid, const int tgt_hdg ) { FGRunway r; string rn; double found_dir = 0.0; if ( !search( aptid, &r ) ) { SG_LOG( SG_GENERAL, SG_ALERT, "Failed to find " << aptid << " in database." ); return "NN"; } double diff; double min_diff = 360.0; while ( r.id == aptid ) { // forward direction diff = tgt_hdg - r.heading; while ( diff < -180.0 ) { diff += 360.0; } while ( diff > 180.0 ) { diff -= 360.0; } diff = fabs(diff); // SG_LOG( SG_GENERAL, SG_INFO, // "Runway " << r.rwy_no << " heading = " << r.heading << // " diff = " << diff ); if ( diff < min_diff ) { min_diff = diff; rn = r.rwy_no; found_dir = 0; } // reverse direction diff = tgt_hdg - r.heading - 180.0; while ( diff < -180.0 ) { diff += 360.0; } while ( diff > 180.0 ) { diff -= 360.0; } diff = fabs(diff); // SG_LOG( SG_GENERAL, SG_INFO, // "Runway -" << r.rwy_no << " heading = " << // r.heading + 180.0 << // " diff = " << diff ); if ( diff < min_diff ) { min_diff = diff; rn = r.rwy_no; found_dir = 180.0; } next( &r ); } // SG_LOG( SG_GENERAL, SG_INFO, "closest runway = " << r.rwy_no // << " + " << found_dir ); // rn = r.rwy_no; // cout << "In search, rn = " << rn << endl; if ( found_dir == 180 ) { int irn = atoi(rn.c_str()); irn += 18; if ( irn > 36 ) { irn -= 36; } char buf[4]; // 2 chars + string terminator + 1 for safety sprintf(buf, "%i", irn); rn = buf; } return rn; } // Destructor FGRunways::~FGRunways( void ) { delete storage; } // Constructor FGRunwaysUtil::FGRunwaysUtil() { } // load the data int FGRunwaysUtil::load( const string& file ) { FGRunway r; string apt_id; runways.erase( runways.begin(), runways.end() ); sg_gzifstream in( file ); if ( !in.is_open() ) { SG_LOG( SG_GENERAL, SG_ALERT, "Cannot open file: " << file ); exit(-1); } // skip first line of file char tmp[2048]; in.getline( tmp, 2048 ); // read in each line of the file #ifdef __MWERKS__ in >> ::skipws; char c = 0; while ( in.get(c) && c != '\0' ) { if ( c == 'A' ) { in >> apt_id; in >> skipeol; } else if ( c == 'R' ) { in >> r; r.id = apt_id; runways.push_back(r); } else { in >> skipeol; } in >> ::skipws; } #else in >> ::skipws; while ( ! in.eof() ) { char c = 0; in.get(c); if ( c == 'A' ) { in >> apt_id; in >> skipeol; } else if ( c == 'R' ) { in >> r; r.id = apt_id; // cout << apt_id << " " << r.rwy_no << endl; runways.push_back(r); } else { in >> skipeol; } in >> ::skipws; } #endif return 1; } // save the data in gdbm format bool FGRunwaysUtil::dump_mk4( const string& file ) { // open database for writing c4_Storage storage( file.c_str(), true ); // need to do something about error handling here! // define the properties c4_StringProp pID ("ID"); c4_StringProp pRwy ("Rwy"); c4_FloatProp pLon ("Longitude"); c4_FloatProp pLat ("Latitude"); c4_FloatProp pHdg ("Heading"); c4_FloatProp pLen ("Length"); c4_FloatProp pWid ("Width"); c4_StringProp pSurf ("SurfaceFlags"); c4_StringProp pEnd1 ("End1Flags"); c4_StringProp pEnd2 ("End2Flags"); // Start with an empty view of the proper structure. c4_View vRunway = storage.GetAs("runway[ID:S,Rwy:S,Longitude:F,Latitude:F,Heading:F,Length:F,Width:F,SurfaceFlags:S,End1Flags:S,End2Flags:S]"); c4_Row row; iterator current = runways.begin(); const_iterator end = runways.end(); while ( current != end ) { // add each runway record pID (row) = current->id.c_str(); pRwy (row) = current->rwy_no.c_str(); pLon (row) = current->lon; pLat (row) = current->lat; pHdg (row) = current->heading; pLen (row) = current->length; pWid (row) = current->width; pSurf (row) = current->surface_flags.c_str(); pEnd1 (row) = current->end1_flags.c_str(); pEnd2 (row) = current->end2_flags.c_str(); vRunway.Add(row); ++current; } // commit our changes storage.Commit(); return true; } #if 0 // search for the specified id bool FGRunwaysUtil::search( const string& id, FGRunway* a ) const { const_iterator it = runways.find( FGRunway(id) ); if ( it != runways.end() ) { *a = *it; return true; } else { return false; } } FGRunway FGRunwaysUtil::search( const string& id ) const { FGRunway a; this->search( id, &a ); return a; } #endif // Destructor FGRunwaysUtil::~FGRunwaysUtil( void ) { }